Seasonal dynamics of the physical quality of volcanic ash soils under different land uses in southern Chile

•Properties of Chilean volcanic soils are variable due to the pedogenetic conditions in which they were developed.•Dynamics of soil physical quality (SPQ) were assessed in different Chilean volcanic soils.•SPQ indicators considered descriptors of the functions of the porous pore soil system.•Dynamic...

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Bibliographic Details
Published in:Soil & tillage research 2018-10, Vol.182, p.25-34
Main Authors: Valle, Susana R., Dörner, José, Zúñiga, Felipe, Dec, Dorota
Format: Article
Language:English
Subjects:
Physical quality indicators
Seasonal dynamics
Volcanic soils
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Summary:•Properties of Chilean volcanic soils are variable due to the pedogenetic conditions in which they were developed.•Dynamics of soil physical quality (SPQ) were assessed in different Chilean volcanic soils.•SPQ indicators considered descriptors of the functions of the porous pore soil system.•Dynamics of SPQ depended on the season, soil type (development) and soil organic carbon. In Chile, volcanic soils were developed under almost all of the diverse rain and temperature regimes, from the Arid Mediterranean to the Wet Zone of the South. Due to their andic properties, volcanic soils exhibit characteristics that are entirely different from other soil types around the world. The soil physical quality (SPQ) is strongly related to the functions of the soil pore system. Thus, soils characterized by a good SPQ have the ability to store and conduct water, air and nutrients promoting both: maximum crop yield and minimum environmental degradation. Many studies and much scientific progress have been made concerning the storing and conducting of water and air functions in volcanic soils. However, soil physical quality indicators and their temporal changes have been less studied. Thus, the objectives of this study were: i) to assess the impact of land use changes on the physical quality of three main volcanic soil groups in Chile, ii) to quantify the magnitude of their temporal changes and iii) to compare these results with threshold values found in the literature. Three soils derived from volcanic materials formed under different conditions and with different degrees of development were sampled (with different intrinsic properties), on five sampling dates, under three land uses (intensities): native forest (NF), prairie (P) and crops (C). Undisturbed samples were taken at two soil depths: 0–15 cm and 15–30 cm, in 230 cm3 metallic cylinders, and then covered with caps and plastic film to prevent mechanical disturbance and evaporation. We measured and /or calculated from these samples: air capacity (AC), plant available water capacity (PAWC), relative field capacity (RFC), bulk density (dB), air conductivity (kl), pore connectivity indexes (C2 and C3), the coefficient of linear extensibility (COLE) and saturated hydraulic conductivity (Ks). Undisturbed soil blocks were collected to evaluate aggregate stability. To assess differences among land uses and seasons in the SPQ indicators, analyses of variance (ANOVA) were used and an LSD test (p ≤ 0.05) was conducted to separa
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2018.04.018